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10-26-15 BOA Agenda with associated documents
.•. SCHERTZ BOARD OF ADJUSTMENT HAL BALDWIN MUNICIPAL COMPLEX COUNCIL CHAMBERS 1400 SCHERTZ PARKWAY BUILDING #4 SCHERTZ, TEXAS 78154 City of Schertz Core Values Do the right thing Do the best you can Treat others the way you would want to be treated Work together cooperatively as a team 2. SEAT ALTERNATE TO ACT IF REQUIRED 3. CONSENT AGENDA: A. Minutes for September 28, 2015 Regular Meeting. 4. PUBLIC HEARING: The Board of'Adjustment will hold a public hearing related to variance requests within this agenda. The public hearing will be opened to receive a report from staff, the applicant, and the adjoining property owners affected by the applicant's request, and any other interested persons. Upon completion, the public hearing will be closed. The Board will discuss and consider the application, and may request additional information from staff or the applicant, if required. After deliberation, the Board will act on the applicant's request. A. BOA 2015 -009 Hold a public hearing, consider and act upon a request for a variance to UDC Article 9, Section 21.9.8.B.2.b. Prohibited Materials, in order to permit an electric fence to be installed at 18115 IH- 35N. 5. ANNOUNCEMENTS: A. Announcements by Members • City and community events attended and to be attended • Continuing education events attended and to be attended B. Announcements by City Staff • City and community events attended and to be attended • Continuing education events attended and to be attended Board of Adjustment October 26, 2015 Page 1 of 2 CERTIFICATION I, Lesa Wood, Senior Planner of the City of Schertz, Texas, do hereby certify that the above agenda was posted on the official bulletin boards on this the 23rd day of October, 2015 at 12:30 p.m., which is a place readily accessible to the public at all times and that said notice was posted in accordance with chapter 551, Texas Government Code. Lesa wood Lesa Wood, Senior Planner I certify that the attached notice and agenda of items to be considered by the Schertz Board of Adjustment was removed from the official bulletin board on day of , 2015. title: This, facility is accessible in accordance with the Americans with Disabilities Act. Handicapped parking spaces are available. If you require special assistance or have a request for sign interpretative services or other services please call 619 -1030 at least 24 hours in advance of meeting. The Board of Adjustment for the City of Schertz reserves the right to adjourn into executive session at any time during the course of this meeting to discuss any of the matters listed above, as authorized by the Texas Open Meetings Act. Executive Sessions Authorized: This agenda has been reviewed and approved by the City's legal counsel and presence of any subject in any Executive Session portion of the agenda constitutes a written interpretation of Texas Government Code Chapter 551 by legal counsel for the governmental body and constitutes an opinion by the attorney that the items discussed therein may be legally discussed in the closed portion of the meeting considering available opinions of a court of record and opinions of the Texas Attorney General known to the attorney. This provision has been added to this agenda with the intent to meet all elements necessary to satisfy Texas Government Code Chapter 551.144(c) and the meeting is conducted by all participants in reliance on this opinion. Board of Adjustment Page 2 of 2 October 26, 2015 BOARD OF ADJUSTMENT MINUTES September 28, 2015 The Schertz Board of Adjustment convened on September 28, 2015 at the Municipal Complex, Council Chambers, 1400 Schertz Parkway Building #4, Schertz, Texas. BOARD OF ADJUSTMENT CITY STAFF Richard Dziewit, Chairman Lesa Wood, Senior Planner David Reynolds, Vice Chairman Bryce Cox, Planner I Earl Hartzog Patti White, Executive Asst. of Development Reginna Agee Dani Salas BOARD MEMBERS ABSENT OTHERS PRESENT Frank McElroy Terry Tschirhart, Executive Signs Steve Braha, Verde South Partners Benjamin Deszer, Verde South Partners I CALL TO ORDER/ROLL CALL Mr. Dziewit called the regular meeting to order at 6 :00 P.M', and recognized members present 2. SEAT ALTERNATE TO ACT IF REQUIRED Mr. Dziewit seated Ms. Salas as a voting member. 3. CONSENT AGENDA A. MINUTES FOR JULY 27,2015 REGULAR MEETING Mr. Hartzog moved to approve the minutes as presented. Ms. Agee seconded the motion. Vote was 4. PUBLIC; HEARING: Mr. Dziewit stated that the items under the Public Hearings listed on the agenda are all related and he would like to take all three and have them presented at one time, and then the Board will vote individually on each request if okay with the Board. There being no one to object to this, Mr. Dziewit opened the Public Hearing at 6:04 P.M. A. BOA 2015 -006 Hold a public hearing, consider and act upon a request for a variance to the Enterprise Business Park PUD Standards in order to allow a secondary wall sign with a sign area to exceed 25% of the primary wall sign, and with letter /logo height to exceed twelve inches (12 ") at 17115 IH -35N. B. BOA 2015 -007 Hold a public hearing, consider and act upon a request for a variance to the Enterprise Business Park PUD Standards in order to allow a variance from the requirement that all tenant signs within a free standing multi- tenant sign contain the same number of square feet at 17115 IH -35N. Minutes Board of Adjustment September 28, 2015 Page 1 of 6 C. BOA 2015 -007 Hold a public hearing, consider and act upon a request for a variance to the Enterprise Business Park PUD Standards in order to allow a variance from the requirement that all tenant signs within a free standing multi- tenant sign contain the same number of square feet at 17115 IH -35N. Mr. Cox gave the first presentation on BOA2015 -006 by stating that the Applicant is requesting a variance to Section VI.B Number of Signs (General Provisions) and Article IX, Section 7.4 Wall Sign of Ordinance #96 -S -28 Unified Development Code as amended and adopted by the Enterprise Business Park PUD, in order to permit one 60 square foot secondary wall sign with logo /letters not to exceed 24" on the east elevation of "Building B" and one 60 square foot secondary wall sign with logo /letters not to exceed 24" to be placed on the east elevation of "Building A" at 17115 IH -35N. The subject property is an approximately three (3) acre tract of land and is currently under construction with an approximately 24,277 square foot retail building. The applicant is proposing to install a secondary wall sign for each of the businesses that will occupy the two corner suites. The proposed sign package includes one 60 square foot secondary wall sign with logo /letters not to exceed 24" on the east elevation of `Building B" and one 60 square foot secondary wall sign with logo /letters not to exceed 24" to be placed on the east elevation of `Building A ". The public hearing notice was published in "The Daily Commercial Recorder" on September 11, 2015 . and in the "Herald" on September 16, 2015. There were seven (7) notices mailed to surrounding property owners on September 11, 2015. At the time of this meeting no responses have been received. This site is located within a Planned design standards specific to the sul amended (Ordinance 96- S -28). The I the primary wall sign permitted on another side other than the nrimar maximum logo or letter height from the right -of -way. The cu to exceed 75% of the area of ends of the building. Additio' provisions about maximum or (I1 -S -15 as amended) the two According to UDC, Article 3,E variance rrom the zoning 1. The requested va UDC (11 )ment (PUD) zoning district which is regulated by well at the 1996 Unified Development Code as rites that a secondary wall sign is limited to 25% of buildings when a public entrance is provided on side. Additionally the 1996 UDC allows for a 2 ") for signs located less than 1.00 feet (100') away as amended) allows for a secondary wall sign not m on multi- tenant spaces which are located at the 3D;C (11 -S -15 as amended) does not contain any ,tter heights for wall signs. Under the current UDC wall signs would be permitted. .3.4.C, In order to make a finding of hardship and grant a UDC, the Board must determine the following: does not violate the intent of this UDC or its amendments; Article IX of the 1996 ` UDC is intended to enhance property values, maintain aesthetic attractiveness, and promote commercial opportunity in the City, and to support and further the objectives of the City's Comprehensive Land Plan. The variance does not violate the intent of the UDC because the proposed secondary wall signs are scaled appropriately for the size of the building that they are being attached to and are permitted under the current UDC. 2. Special conditions of restricted area, topography or physical features exits that are peculiar to the subject parcel of land and are not applicable to other parcels of land in the same zoning district; The retail building sits at a lower grade than the frontage road of IH -35. There is also a monument sign for Verde Business Park on Mid Cities Parkway that blocks the visibility of part of the building signage for southbound travelers on IH -35. The addition of the secondary wall signs will help to mitigate the visibility obstructions caused by the monument Minutes Board of Adjustment September 28, 2015 Page 2 of 6 sign and lower grade elevation and provide for clearer more visible identification of the businesses in the retail center. 3. The hardship is in no way the result of the applicant's own actions; or 4. The interpretation of the provisions in this UDC or any amendments thereto would deprive the applicant of rights commonly enjoyed by other properties in the same zoning district that comply with the same provisions. Per the Enterprise Business Park PUD, this area is identified as having a base zoning district of ' General Business District (GB). Other properties along IH -35, with the same base GB zoning have permitted secondary wall signs many of which are larger than what is being requested. Additionally, under the current UDC the two proposed secondary wall signs would be permitted. Staff recommends approval of BOA 2015 -006, Mr. Cox gave the second presentation on BOA2( variance to Article IX, Section 7.6.E Number of Code as amended and adopted by the Emery individual tenant panels to be different sizes can t subject property is an approximately three (3) ai with an approximately 24,277 square foot retail allow the individual tenant panels on the free st site is located within a Planned Unit Develops design standards specific to the subdivision: as amended (Ordinance 96- 5 -28). The 1996 UDC standing multi - tenant sign all contain the same n, amended) allows for the developer to determin€ multi- tenant sign. Under the current UDC (I I -S• choose how much space on the free standing mul 15 -007 by stating that the Applicant is requesting a 'igns of Ordinance #96 -5 -28 Unified Development ise Business Park PUD, in order to permit the e free standing multi - tenant at 17115 IH -35N. The �e tract of land and is currently under construction milding. The applicant is requesting a variance to nding multi- tenant sign to be different sizes. This ent (PUD) zoning district which is regulated by well at the 1996 Unified Development Code as quires that the individual tenant panels on a free nber of square feet. The current UDC (11 -5 -15 as the size of each tenant panel on the free standing 5 as amended) the developer would be allowed to - tenant sign each business could use. ording to UDC, Article 3, Sections 21.3.4.C, In .order to make a finding of hardship and grant a ance from the zoning regulations of the UDC, the Board must determine the following: 1.' The requested variance does not violate the intent of this UDC or its amendments; Article IX of the 1996 UDC is intended to enhance property values, maintain aesthetic attractiveness, and promote commercial opportunity in the City, and to support and further the objectives of the City's Comprehensive Land Plan. The variance does not violate the intent of the UDC because the proposed variance does not increase the advertising area on the free standing multi- tenant sign, and this request would be allowed under the current UDC. 2. Special conditions of restricted area, topography or physical features exits that are peculiar to the subject parcel of land and are not applicable to other parcels of land in the same zoning district; No special conditions of restricted area, topography or physical features exist on this parcel which affect this request. 3. The hardship is in no way the result of the applicant's own actions; or 4. The interpretation of the provisions in this UDC or any amendments thereto would deprive the applicant of rights commonly enjoyed by other properties in the same zoning district that comply with the same provisions. Per the Enterprise Business Park PUD, this area is identified as having a base zoning district of General Business District (GB). Other multi - tenant building properties along IH- Minutes Board of Adjustment September 28, 2015 Page 3 of 6 35, with the same base GB zoning are permitted to allocate free standing multi - tenant sign panel space as they see fit and are not required to provide the exact same amount of sign space to each tenant. Additionally, under the current UDC this variance would not be needed as the current UDC does not regulate individual tenant space sign area. Staff recommends approval of BOA 2015 -007. Mr. Cox gave the third presentation on BOA201.5 -008 by stating that the Applicant is requesting a variance to Article IX, Section 7.6.D. Maximum Area of Ordinance #96 -5 -28 Unified Development Code as amended and adopted by the Enterprise Business Park PUD, in order to permit a free standing multi- tenant sign with maximum sign area to 267 square feet to accommodate a 33 square foot address identifier on top of the sign at 17115 IH -35N. The subject property is an approximately three (3) acre tract of land and is currently under construction with an approximately 24,277 square foot retail building. The applicant is proposing maximum area of 267 square feet. The sign is ci square feet for an address identifier. This request 17 square feet larger than the maximum allows Planned Unit Development (PUD) zoning distri( the subdivision as well at the 1996 Unified De The 1996 UDC states that the n 250 square feet. Additionally, bz identifier is calculated as part of According to UDC, Article 3, variance from the zonin-a rmu 1. There Article °i- tenant sign is to al, ?rtising far the tenant. which is less than the area to install a free standing multi - tenant sign with a )mprised of 234 square feet of tenant panels and 33 is to allow the free standing multi- tenant sign to be d by the 1996 UDC. This site is located within a A which is regulated by design standards specific to velopment Code as amended A(Ordinance 96- 5 -28). r a free standing multi- tenant sign at this location is ition of "sign area" in the UDC the property address sign to make a finding of hardship and grant a J must determine the following: s not violate the intent of this UDC or its amendments; " is intended to enhance property values, maintain aesthetic commercial opportunity in the City, and to support and further Comprehensive Land Plan. The variance does not violate the zeproposed increase to the maximum area of the free standing for the address to be placed on top of the sign not additional area used for tenant panels and advertising totals 234 square vum allowed area of 250 square feet. ted area, topography or physical features exits that are of land and are not applicable to other parcels of land in to the subject, parcel the same zoning district; The retail building sits at a lower grade than the frontage road of IH -35. There is also a monument sign for Verde Business Park on Mid Cities Parkway that blocks the visibility of part of the building signage for southbound travelers on IH -35. The increase in the maximum area of the sign allows for the addition of a clearly visible address identifier to the top of the sign to aid motorists in finding the retail center. Placing the address identifier at the top of the sign will help to mitigate the visibility obstructions caused by the monument sign and lower grade elevation and provide for clearer more visible address identification of the retail center. 3. The hardship is in no way the result of the applicant's own actions; or Placing the address identifier at the top of the sign will help to mitigate the visibility obstructions caused by the monument sign and lower grade elevation and provide for clearer more visible address identification of ' the retail center. Other properties in the Enterprise Business Park PUD are not affected by the visibility obstruction of the existing monument Minutes Board of Adjustment September 28, 2015 Page 4 of 6 sign at Mid - Cities Parkway and IH -35. 4. The interpretation of the provisions in this UDC or any amendments thereto would deprive the applicant of rights commonly enjoyed by other properties in the same zoning district that comply with the same provisions. Staff recommends approval of BOA 2015 -008. Ms. Wood clarified that the address of the sign is not always part of the sign face. Mr. Tschirhart, the Applicant, stated that he wanted to clarify this property is very unique and there is no egress and ingress off IH35 and the egress and ingress is off Mid Cities Parkway coming off the deceleration lane, so the intent is to bring the address above so that anyone can see the address clearly. Ms. Salas asked if the signage will be illuminated to include the address. Mr. Tschirhart stated yes, but the background will not be illuminated. Mr. Braha, the Applicant, stated he nothing more to add. Mr. Dziewit closed the Public Hearing at 6: Mr. Hartzog asked if what they are requestin that is correct. Discussion continued between A. BOA 2015 -006 Hold a public hearing, consider and act PUD Standards in order to allow a seca wall sign, and with letter /logo height to Mr. Hartzog mo, was 5 -0. Motion B. current UDC. Mr. Cox stated yes, and the Board. for a variance to the Enterprise Business Park with a sign area to exceed 25% of the primary riches (12 ") at 17115 IH -35N. Agee seconded the motion. Vote Waring, consider and act upon a request for a variance to the Enterprise Business Park in order to allow a variance from the requirement that all tenant signs within a free tenant sign contain the same number of square feet at 17115 IH -35N. Mr. Reynolds moved to approve the request for a variance. Ms. Agee seconded the motion. Vote was 5 -0. Motion carried. C. BOA 2015 -008 Hold a public hearing, consider and act upon a request for a request for a variance to the Enterprise Business Park PUD Standards in order to allow a free standing multi- tenant sign with a maximum area greater than 250 square feet at 17115 I14-35N. Mr. Hartzog asked if we need to put down the exact square footage. Ms. Wood stated that it needs to be what they are requesting which is 267 square feet. Mr. Hartzog moved to approve the request for a variance with a maximum of 267 square feet. Ms. Agee seconded the motion. Vote was 5 -0. Motion carried. Minutes Board of Adjustment September 28, 2015 Page 5 of 6 5. 6. ANNOUNCEMENTS A. Announcements by Members • Mr. Dziewit would like to thank the Staff in presenting all this information. B. Announcements by City Staff • None. ADJOURNMENT The meeting adjourned at 6:40 P.M. Chairman, Board of Adjustment Recording Secretary, City of Schertz Minutes Board of Adjustment September 28, 2015 Page 6 of 6 TO: Board of Adjustment rlti�i!� .FTTiTo�"i CASE: BOA 2015 -009 18115 IH -35 N SUBJECT: Hold a public hearing, consider and act upon a request for a variance to UDC Article 9, Section 21.9.8.B.2.b. Prohibited Materials, in order to permit an electric fence to be installed at 18115 IH -35N. GENERAL INFORMATION: Owner: MAS Development CO LP, Trevor Williams Applicant: Electric Guard Dog LLC, Michael Pate Engineer: Alliance Engineering of Oregon, Jenn Artigo REQUEST: The applicant is requesting a variance to Article 9, Sec.21.9.8, Screening and Fencing to allow an electric fence around the perimeter of the storage yard on the subject property. PUBLIC NOTICE: The public hearing notice was published in "The Daily Commercial Recorder" on October 8, 2015 and in the "Herald" on October 14, 2015. There were five (5) notices mailed to surrounding property owners on October 7, 2015. At the time of this staff report two (2) responses have been received; one (1) in favor of the request from the subject property owner and one (1) neutral to the request. ITEM SUMMARY: The subject property is an approximately 3 acre tract of land containing two buildings totaling approximately 32,000 square feet of floor space and is occupied by a heavy equipment sales, service or rental facility. The applicant is requesting a variance to allow an electric fence around the storage yard which is not permitted by the Unified Development Code (UDC). Pursuant to the UDC Article 9, Section 21.9.8.132b, Fences Nonresidential and Multifamily Areas: Prohibited Materials, above - ground electrical fencing, wire mesh (such as hog wire or chicken wire), screening slats within chain link fences and barbed wire are prohibited except for parcels or lots one (1) acre or greater in size in conjunction with the containment of livestock or farm animals. The applicant installed a ten foot (10') electric fence without a permit around the storage yard at the subject property. The Building Inspections department discovered the fence while conducting scheduled inspections for permitted interior renovation work. Staff meet with the owner and applicant to discuss the fence and code violation. The applicant and property owner expressed a desire to seek a variance for the electric fence. Based on discussion between the Building Office and the property owner the fence has been lowered to eight feet (8') in height, which is the maximum height permitted by the UDC, and de- energized for the duration of the variance process. SUBJECT PROPERTY GENERAL LOCATION ZONING AND LAND USE: The property is located at 18115 IH -35N, approximately 3,250 feet east of the intersection of FM 3009 and IH- 35N. Existing Zoning I Existing Use General Business (GB) I Heavy Equipment Sales, Service or Rental Existing Zoning North Manufacturing Light (N South Right -of -way East General Business (G West General Business (G Existing Use riculturall Undevelol IH -35 CPS Power Station Shoe Store CRITERIA FOR REVIEW: According to UDC, Article 3, Sections 21.3.4.C, In order to make a finding of hardship and grant a variance from the zoning regulations of the UDC, the Board must determine the following: 1. The requested variance does not violate the intent of this UDC or its amendments; UDC Article 9 is intended to enhance property values, maintain aesthetic attractiveness, and promote commercial opportunity in the City, and to support and further the objectives of the City's Comprehensive Land Plan. The variance does not meet the intent of the UDC because the requested electric fence is not being used for the containment of livestock and is expressly prohibited by the UDC. 2. Special conditions of restricted area, topography or physical features exits that are peculiar to the subject parcel of land and are not applicable to other parcels of land in the same zoning district; The purpose of this variance is to acknowledge the special circumstances particular to the subject property. The subject property is not influenced by conditions that are unique to the land or land use. 3. The hardship is in no way the result of the applicant's own actions; or 4. The interpretation of the provisions in this UDC or any amendments thereto would deprive the applicant of rights commonly enjoyed by other properties in the same zoning district that comply with the same provisions. The property has no special circumstances or unique conditions that would result in the need of the variance requested. The variance request conflicts with the provisions of the UDC. Currently properties within the City of Schertz requesting a permit for a new fence are subject to the same electric fence and barbwire regulations. STAFF ANALYSIS STAFF RECOMMENDATION: Staff recommends denial of BOA 2015.009. The request for a variance does not comply with all the criteria for granting a variance as presented above. The applicant desires to erect an electric fence that is not in compliance with what is allowed per Code and does not provide sufficient justification for granting a variance. iN Planning Department Recommendation Approve as submitted Approve with conditions* X I Denial * While the Board can impose conditions; conditions should only be imposed to meet requirements of the UDC. Attachments: Aerial location map Public hearing notice map Correspondence Exhibits SCHIERTZ I OSERVICE PPORi UINITY DEVELOPMENT S )EA'VICES PLANNING DEPARTMENT NOTICE OF PUBLIC HEARING October 7, 2015 Dear Property Owner, The Schertz City Board of Adjustment will conduct a Public Hearing on Monday, October 26, 2015 at 6,00 P.m. at the Municipal Complex Council Chambers, 1400 Schertz Parkway, Building #4, Schertz, Texas to consider and act upon the following items: BOA 2015 -009 - A request for a variance to UDC Article 9, Section 21.9.8.132b. Prohibited - , ' rta�etrci> �virio�errceto- be- ln�taHedaf-'fi84�S1t�Pd-_T_ - - Because you own property within 200 feet of the subject property the Board would like to hear how you feel about this request and invites you to attend the public hearing, if you are unable to attend but would like to express how you feel, please complete the bottom portion of this letter and return before the public hearing date to City of Schertz Planning and Zoning Department, 1400 Schertz Parkway, Schertz, Texas, 78154 or fax (210) 819 -1789, or e -mail: bcoxCoDschertz.com Sincerely, Bryce Cox, CFM Planner -: - --- - - - - -- --------- _ — Reply Form I am: in favor of opposed to 0 neutral to 0. . the request for BOA 2015 -009 Comm Name: Street 1400 Schertz Perkway * Schertz, Texas 7B154 k 210.619.1000 !r schertz.com I 'd 16D 'ON SLO M 6L6 Ads G z 5196 '06 UO XOct 12 15 09:24p C & W PROPERTIES October 7, 2015 Dear Property Owner, 210-651-5974 P.1 DEVELOPMENT SERVICES PLANNING DEPARTMENT The Schertz City Board of Adjustment will conduct a Public Hearing on Monday, October 26, 2015 at 6:00 12.m. at the Municipal Complex Council Chambers, 1400 Schertz Parkway, Building #4, Schertz, Texas to consider and act upon the following items: BOA -2015=009 - A request for a variance t6-'UDC--Arti-bIb -'g,- Section 21.9.8,U.-2.b. Prohibited Materials, in order to permit an electric fence to be installed at 18115 1H-35N. Because you own property within 200 feet of the subject property the Board would like to hear how you feel about this request and invites you to attend the public hearing. If you are unable to attend but would like to express how you feel, please complete the bottom portion of this letter and return before the public hearing date to City of Schertz Planning and Zoning Department, 1400 Schertz Parkway, Schertz, Texas, 78154 or fax (210) 6191789, or e-mail.- bcoxg—schertz.com Sincerely, Bryce Cox, CFM Planner Reply Form I am,- in favor of ❑ opposed to ❑ neutral to XX the request for BOA 2015-009 Comments: Name: Eric W. White (Please Print Your Name) --7S-ignature Street Address: 17969 IH 35 North Schertz, TX 78154 Date 10/12/15 Phone No.: 210-651-6526 0 C 1, 2 K3115 f3y 1400 Schertz Parkway zt Schertz, Texas 78154 210.619.1000 scheft.corn CASE Board of Adjustment may grant variances or modifications of height, yard, area, coverage, parking regulations, accessory building and non - conforming use subject to making a finding of hardship that the variance meets all four of the following criteria. State how your request meets these conditions. Description of variance request: Does the requested variance violate the intent of the Unified Development Code or deprive the applicant of right commonly enjoyed by other properties in the same zoning district that comply with the same provisions? In Yes © No See attached detail 2. Do special conditions or restricted area, shape, topography, or physical features exist that are irregular to the subject parcel of land and not applicable to other parcels of land in the same zoning districts? ❑ Yes ® No Explain: See attached detail explanation. 3. Is the hardship the result of the applicant's own actions or intended for financial interest? ❑ Yes ® No See attached detail 4. Would granting this variance be detrimental to the public welfare or injurious to the value of property in the vicinity? ❑ Yes ® No See attached detail g / I Preparer's Signature: �iS ° j '` o � - k Printed Name: Carol Bausinger Date prepared: 9/24/15 16- Vanaace Checklist uMa� �o -smy Page 2 of 2 Variance Request — We Rent It, Schertz TX We are requesting a variance to install an electric fence security system (Electric Guard Dog aka EGD) approximately 3 -12 inches inside /behind the existing perimeter chain link fence at We Rent It located at 18115 IH -35 N, Schertz TX. The EGD Security system is an electrically charged fence powered by 12V marine battery which is charged by a solar panel. An energizer retains the voltage for 1.3 seconds and thus when released it is boosted to 7,000 volts of a totally safe, pulsed electrical charge. Signage posted a minimum of every 50 feet warns of the electric fence. However, the safety of the 'shock' is not advertised and therefore, due to our inherent fear of electricity, most criminals will not take a chance in breeching the perimeter. With this, the EGD proactively deters crime unlike cameras, beams and alarms that react to a crime in commission. This genre of business is a high target for crime due to the fact that their yard contains highly desirable, easily'fenceable' inventory of commercial and residential materials and equipment. Currently, We Rent It has a chain link fence around the perimeter of the property for security and to prevent intruders. This security system has proven ineffective. Many businesses in this industry use 'electric fence' security systems to effectively protect their property where other systems have failed. Essential safety facts regarding Electric Guard Dog fence • Totally independent of city electrical grid — does not plug in to the electrical grid /mains power • Powered by 12V marine battery and solar panel • Totally enclosed inside perimeter fence of 6' minimum height • Only installed to secure outdoor storage lots • Pulsed current, shock delivered every 1.3 seconds for one -ten thousandth of a second • Shortness of duration makes it very safe • Fully tested and approved by: • MetLabs, a Nationally Recognized Testing Lab • Dr. Webster, University of Wisconsin, the leading expert in pulsed electricity • Adheres to International Standard IEC 60336.2.76 of which the United States is a supporting member VARIANCE CRITERIA RESPONSE - WE RENT IT 1. Does the requested variance violate the intent of the Unified Development Code or deprive the applicant of rights commonly enjoyed by other properties in the same zoning district that comply with the same provisions? Response: The requested variance does not violate the current or any future intent of the Unified Development Code. Electric fences are allowed on parcels of greater than one acre; the property requesting the variance is three acres. The interpretation allows for electric fences in conjunction with the containment of livestock or farm animals. The requested variance is for a security fence powered by a 12 -volt DC battery and should not have to be used in conjunction with livestock or animals to keep the criminal class from burglarizing or vandalizing We Rent It — a tax paying business and employer in the City of Schertz. The implied use of animals to ward off the criminal class in conjunction with an electric fence is not an effective form of security. The Electric Guard Dog security fence is proven to be safe and effective as a security deterrent. The remote location of the property and the high value targets secured therein are an open invitation to the criminal class. The only system that actually PREVENTS crime and break -ins is the Electric Guard Dog security system. We Rent It believes the variance is of the utmost importance to the protection of their business and inventory. Response: 2. Do special conditions or restricted area, shape, topography, or physical features exist that are irregular to the subject parcel of land and not applicable to other parcels of land in the same zoning districts? The subject property in question is unique in the following ways: a. High value of inventory— both the equipment and inventory; We Rent It is a supplier of all sizes of construction and residential type machinery and equipment. b. Due to size and nature of items, most must be stored outside and cannot be protected inside a building. These items consist of construction equipment, vehicles, and over -sized construction supplies. c. The subject area is 1,120 linear feet in perimeter; it is not possible for security guards to effectively and constantly monitor the entire lot. d. Two sides of the property are screened by large trees and the eastern side is not able to be seen from the road due to the depth of the lot. Without the security system being sought, it is very easy to obtain access without being seen by patrolling Policemen or a neighborhood watch. e. The business is a reputable business, located in the appropriate zoning and complies with all other ordinances. If approved, the variance authorized will be consistent with the general purpose and intent of the provision from which the variance is sought as the general safety and welfare of the public is maintained, crime is prevented, and the city can police crime other than property break -ins and vandalism. 3. Is the hardship the result of the applicant's own actions or intended for financial interest? Response: This variance is not being sought to relieve illegal acts or self- imposed hardships. The business is a reputable business, located in the appropriate zoning and complies with all other ordinances. If approved, the variance authorized will be consistent with the general purpose and intent of the provision from which the variance is sought as the general safety and welfare of the public is maintained, crime is prevented, and the city can police crime other than property break -ins and vandalism. 4. Would granting this variance be detrimental to the public welfare or injurious to the value of property in the vicinity? Response: The granting of the variance will not be detrimental to the public welfare or injurious to the value of the property in the vicinity of We Rent It. In actuality the installation of the Electric Guard Dog will secure the variance property and increase the security of the surrounding properties and the immediate area by deterring the criminal element. It will be in be in harmony with the general purpose and intent of the approved standards and regulations for the installation of the Electric Guard Dog system. Electric Guard Dog has made a name for ourselves by protecting companies like this one from criminals, we have a certain way of setting up our system fences that is safe to the public and allows for maximum protection of our clients. This is why the client has elected to use our service to protect the business; we have the expertise and experience in creating defense systems that are both safe and effective. Summary of Electric Guard Dog Security System Our Electric Guard Dog security system is a primary low voltage (12V), battery powered (DC), independent of the electrical grid, self - contained system that has a variety of functions to it which make for a 100% medically safe and extremely effective crime deterrent. This system is 10' high and is placed approximately 4 " -12" inside of the existing perimeter fence. It is comprised of 20, 12.5 gauge, galvanized steel wires which are run horizontally to the height of 10'. In our system the first layer of protection (visual deterrent) is our signage (located every 50') which advertises that it is an electric fence. This deters most would -be criminals. The second layer of protection (audible deterrent) of our system is sirens. These sirens sound when an illegal criminal trespasser cuts the wires or places objects on them to insulate them so as to bypass the system. The sirens will automatically shut off after a set amount of time. This audible deterrent usually drives away most of the would -be criminals that are bold enough to proceed in spite of the aforementioned visual deterrent (signage). Included in this second layer of protection is that we monitor our systems. In the event of an alarm, a signal will be sent to our monitoring station, who in turn, contacts our clients to let them know they had an alarm event. Our system does not directly connect to emergency services. The final layer of protection is our voltage. We have a burst of voltage (from the 12V battery) that has a duration of four - ten - thousandths of one second (.00004). If a criminal was bold enough to actually grab or touch our system, they will receive this temporary pulse of voltage which is akin to a slap on the hand from a ruler. This final layer of protection stops the remaining number of criminals that are not deterred by the other layers of protection. With the inclusion of a perimeter barrier fence, electric security fences are as specified in IEC 60335- 2-76, the risk of accidental contact is substantially lowered. Please also take a moment to look at our website, www.electricgLiarddog.com, you will find it helpful as well. 2 Short duration pulses are safer than continuous electric current Figure 2 shows that shock durations longer than 1 second are the most dangerous. Note that as the shock duration is shortened to 0.2 seconds, it requires much more electric current to cause ventricular fibrillation. Electric security fences have taken advantage of this fact by shortening their shock duration to an even shorter duration of about 0.0003 seconds. Therefore, electric security fences are safe and do not lead to ventricular fibrillation due to the short 0.0003 second shock duration. . 5000 Fibrillation threshold 2000 ■ 1000 500 ■\ 200 N x 0 ° 100 E E 50 C C u C 20 w 10L 0.1 ■ 94 kg pony + 12 kg dog 10 kg dog 0 7.5 kg dog . n vg dog g dog 0.2 0.5 10 Shock duration, seconds Figure 2 Thresholds for ventricular fibrillation in animals for 60 -Hz ac current. Duration of current (0.2 to 5 s) and weight of animal body were varied. Fibrillation current versus shock duration for a 70 kg human is about 100 milliamperes for 5 second shock duration. It increases to about 800 milliamperes for 0.3 second shock duration. From L. A. Geddes, IEEE Trans. Biomed. Eng., 1973, 20, 465 -468. Electricity near the heart is most dangerous There are four situations where electricity may be applied close to the heart. (1) Figure 3(b) shows when a catheter tube is threaded through a vein into the heart, any accidental current is focused within the heart and a small current can cause ventricular fibrillation. (2) Cardiac pacemakers also pass electric current inside the heart, but the current is kept so small that ventricular fibrillation does not occur. (3) A Taser weapon may rarely shoot a dart between the ribs very close to the heart and apply a 0.0001 second pulse, but this has not been shown to cause ventricular fibrillation. Typically when a person takes an overdose of drugs, he creates a disturbance, police are called, the person refuses to obey, the police Taser him, afterwards he dies of a drug overdose, and the newspapers report, "Man dies after Taser shot." (4) A defibrillator applies a 0.005 second, 40 ampere electric current. This causes massive heart contraction that can change ventricular fibrillation to normal rhythm and save a life. 3 Macroshock Microshock (a) (b) Catheter Figure 3 Effect of entry points on current distribution. (a) Macroshock, externally applied current spreads throughout the body, (b) Microshock, all the current applied through an intracardiac catheter flows through the heart. From F. J. Weibell, "Electrical Safety in the Hospital," Annals of Biomedical Engineering, 1974, 2, 126 -148. When comparing an electric security fence to the above examples, we know that an electric security fence is similar to Figure 3(a). Why do we know that? If a person contacts an electric fence, electric current is concentrated in the limbs and causes a deterrent shock; when it continues to pass through the torso, it spreads out and becomes more diffuse. Therefore as shown in Figure 3(a) and in Figure 2 electric security fences are safe because the deterrent shock spreads out and becomes more diffuse and is of a very short duration. Only power lines cause ventricular fibrillation Table 1 shows that short duration electric pulses, even though applied near the heart do not cause ventricular fibrillation. In contrast, the continuous current from power lines kills 1000 persons per year. Table 1 Only power lines cause ventricular fibrillation Duration of Current Likely to be Caused ventricular fibrillation? pulse in in applied near seconds amperes heart? Power lines Continuous 0.1 No 1000 per year Electric 0.0003 10 No No security fence 0.8 times /sec Taser 0.0001 2 May be No 19 times /sec Cardiac 0.001 0.005 Yes No pacemaker 1 time /sec Defibrillator 0.005 40 Yes Cures ventricular fibrillation I time Spark plug 0.00002 0.2 No No 1 time Doorknob 0.00002 0.2 No No 1 time Safety of electric fence energizers Amit J. Nimunkarl and John G. Websterl 1Department of Biomedical Engineering, University of Wisconsin, 1550 Engineering Drive, Madison, WI 53706 USA. E -mail: Webstergengr.wisc.edu (John G. Webster) Tel 608 -263 -1574, Fax 608- 265 -9239 Abstract The strength—duration curve for tissue excitation can be modeled by a parallel resistor — capacitor circuit that has a time constant. We tested five electric fence energizers to determine their current- versus -time waveforms. We estimated their safety characteristics using the existing IEC standard and propose a new standard. The investigator would discharge the device into a passive resistor —capacitor circuit and measure the resulting maximum voltage. If the maximum voltage does not exceed a limit, the device passes the test. Key words: strength—duration curve, cardiac stimulation, ventricular fibrillation, electric safety, electric fence energizers, standards. 1. Introduction The vast majority of work on electric safety has been done using power line frequencies such as 60 Hz. Thus most standards for electric safety apply to continuous 60 Hz current applied hand to hand. A separate class of electric devices applies electric current as single or a train of short pulses, such as are found in electric fence energizers (EFEs). A standard that specifically applies to EFEs is IEC (2006). To estimate the ventricular fibrillation (VF) risk of EFEs, we use the excitation behavior of excitable cells. Geddes and Baker (1989) presented the cell membrane excitation model (Analytical Strength— Duration Curve model) by a lumped parallel resistance — capacitance (RC) circuit. This model determines the cell excitation thresholds for varying rectangular pulse durations by assigning the strength — duration rheobase currents, chronaxie, and time constants (Geddes and Baker, 1989). Though this model was originally developed based on the experimental results of rectangular pulses, the effectiveness of applying this model for other waveforms has been discussed (IEC 1987, Jones and Geddes 1977). The charge—duration curve, derived from the strength— duration curve, has been shown in sound agreement with various experimental results for irregular waveforms. This permits calculating the VF excitation threshold of EFEs with various nonrectangular waveforms. We present measurements on electric fence energizers and discuss their possibility of inducing VF. 2. Mathematical background and calculation procedures Based on the cell membrane excitation model (Weiss — Lapique model), Geddes and Baker (1989) developed a lumped RC model (analytical strength — duration curve) to describe the membrane excitation behavior. This model has been widely used in various fields in electrophysiology to calculate the excitation threshold. Figure 1 shows the normalized strength — duration curve for current (1), charge (Q) and energy (0. The expression of charge is also known as the charge — duration curve which is important for short duration stimulations. iU 3 1 ca 4 Duration dfr E 300 100 a w 30 10 c u.i 3 1 0.3 a Figure 1. Normalized analytical strength — duration curve for current I, charge Q, and energy U. The x axis shows the normalized duration of dlr. Note that for d « z, Q is constant and the most appropriate variable for estimating cell excitation. (from Geddes and Baker, 1989). The equation for the strength —duration curve is (Geddes and Baker, 1989), t Av= IR(1 -e z), (1) where I is a step current intensity, R is the shunt resistance, Av is the depolarization potential threshold which is about 20 mV for myocardial cells, z is the RC time constant, and t is the time 1 is applied. If we let the stimulation duration go to infinity, the threshold current is defined as the rheobase current (I = b). If we substitute I in equation (1) by b and define the threshold current Id _ Av /R for the stimulation with duration d. Equation (1) becomes, Id = b d (2) 1 -e r We can calculate the threshold charge (Qd) by integrating equation (2) and it becomes, Qd = Idd = bd d 1 -e z (3) For short duration stimulation (d << T ) with duration shorter than 0.1 times the RC time constant, equation (3) can be approximated by equation (4) and it yields equation (5), _d 1- e r (4) T Qd = br (5) Equation (5) suggests that the charge excitation threshold for short duration stimulation is constant and equals the product of the RC time constant r and the rheobase b. Geddes and Bourland (198 5) showed that the charge—duration curve for single rectangular, trapezoidal, half sinusoid and critically damped waveforms had a good agreement for short duration stimulations. Therefore we used the same model to estimate thresholds for stimulation sources where I was not constant, under the same stimulation setting. Cardiac cell excitation has been intensively studied at the 60 Hz power line frequency because most accidental electrocutions occur with 60 Hz current, which has a longer duration relative to the cardiac cell time constant of about 2 ms. However, EFEs operate with pulse durations much shorter than the time constant. 3. Methods Figure 2 shows our experimental test set -up. The EFEs under test consist of Gallagher Group Ltd PowerPlus B600 (EFE1), Gallagher Group Ltd PowerPlus B280 (EFE2), Speedrite HPB (EFE3), Intellishock 20B (EFE4) and Blitzer 8902 (EFE5) EFEs. The short duration electrical pulses from these EFEs are passed though a series of eleven 47 Q (ARCOL D4.29, HS50 47 R F) resistors which measure 518 n, which represents approximately the internal resistance of the human body. It is further connected to two 18 Q (RH 10 207 DALE 10 W 3 %) resistors connected in parallel which measure 9.08 Q. This is used as the sensing resistor across which the oscilloscope measures the output voltage. For these very short pulses it is important to use noninductive resistors because the same current flowing through a resistor that has substantial inductance will measure a larger current than a resistor that is noninductive. To reduce electromagnetic interference, a faraday cage, covered with aluminum foil, was connected to ground. This diverted the electromagnetic interference to ground. The data were collected in EXCEL format from a disk in the Agilent 54621 oscilloscope. The calculations for different parameters presented in Table 1 and the Figures 3 -5 were plotted using MATLAB. 4 S3 Electric Fence 2 pF �— Energizer Taser rRIR2 R3 0000 R11 S4 Oscilloscope S1 g,Og Agilent 200 pF; 54621 - - - - -, i Leak ' Faraday cage S2 Detector Aluminum foil (-------------- - - -- Aluminum foil Figure 2. The EFE is selected by S 1. The current flows through a string of 47 0 resistors R 1 –R i I (total 518 S2) which approximates the internal body resistance of 500 Q. The 9,08 S2 yields a low voltage that is measured by the oscilloscope, 3.1. Determination of current EFEs are used in conjunction with fences wires to form animal control fences and security fences. We tested five EFEs (EFE1 –EFE5) using the experimental set -up in Figure 2 and obtained the output currents shown in Figure 3. 1' 1 0 4 t U 4 • EFE1 _EFE2 2 i� ...... EFE3 i - - -EFE4 0 i pip -- -- -- EFE 5 ,y 6 ' s ti 4 14 i 4 2 t +.w 2 0 200 400 600 BOB nnn 1� �0 Time (µs) Figure 3. The output current waveform for five EFEs. EFE1 yields about 7.75 A for 151 µs = 1170 µC, EFE2 yields about 3.34 A for 345 p = 1150 µC, EFE3 yields about 5.69 A for 91 ps = M 518 µC, EFE4 yields about 1.25 A for 252 gs = 315 gC and EFE5 yields about 5.7 A for 137 ps = 781 µC. 4. Results Table 1 shows the approximate results for the rms current, power, duration and charge for all the EFEs. Table 1 Approximate results for all EFEs. EF EFE1 EFE2 EFE3 EFE4 ECF5 Parameters Units A. (IEC) Total Energy A2.ms 7.94 4.04 3.10 0.42 4.69 95% Energy Duration Ps 129 346 91 253 138 lrms A 7.65 3.33 5.69 1.25 5.69 IEC Standard !R„s A 13.0 6.21 16.8 7.85 7.37 Pass IEC Standard Yes /No Yes Yes Yes Yes Yes B. Proposed standard Voltage V 3.88 2.91 NAv NAv NAv Duration Ns 233 132 Current A 3.33 4.41 Charae uC 776 582 NA- not applicable, NAv- not available IEC (2006) defines in 3.116 "impulse duration: duration of that part of the impulse that contains 95% of the overall energy and is the shortest interval of integration of F(t) that gives 95% of the integration of h(t) over the total impulse. I(t) is the impulse current as a function of time." In 3.117 it defines "output current: r.m.s. value of the output current per impulse calculated over the impulse duration." In 3.118 it defines "standard load: load consisting of a non - inductive resistor of 500 n t 2.5 n and a variable resistor that is adjusted so as to maximize the energy per impulse or output current in the 500 Q resistor, as applicable." In 22.108, "Energizer output characteristics shall be such that — the impulse repetition rate shall not exceed 1 Hz; — the impulse duration of the impulse in the 500 fl component of the standard load shall not exceed 10 ms; — for energy limited energizers the energy /impulse in the 500 Q component of the standard load shall not exceed 5 J; The energy /impulse is the energy measured in the impulse over the impulse duration. — for current limited energizers the output current in the 500 Q component of the standard load shall not exceed for an impulse duration of greater than 0.1 ms, the value specified by the characteristic limit line detailed in Figure 102; an impulse duration of not greater than 0.1 ms, 15 700 mA. The equation of the line relating impulse duration (ms) to output current (mA) for 1 000 mA < output current < 15 700 mA, is given by impulse duration = 41.885 x 103 x (output current) -134." We used these definitions and calculated the total energy, the shortest duration where 95% of the total energy occurs, the rms current for that duration from Figure 3 for the EFEs (EFE1— EFE5). Similarly we calculated the output current using the relationship impulse duration = 41.885 x 103 x (output current) -1.34, provided by the IEC for all the EFEs (EFE1— EFE5). Table 1 lists these under the heading "A. (IEC) ". Table 1 shows that all the EFEs pass the IEC standard. C 5. Proposed new standard IEC (2006) uses the rms current for the shortest duration where 95% of the total energy occurs as the standard to determine if the EFE is safe for use. Geddes and Baker (1989) have shown that for pulses shorter than the cardiac cell time constant of 2 ms, the electric charge is the quantity that excites the cells. We propose a simple experimental set -up shown in Figure 2 to determine the maximum amount of charge that would flow from the EFEs and cause cardiac cell excitation. The cardiac cell is modeled as an RC circuit in Fig. 2 with R = 9.08 S2 and C = 200 gF (GECONOL 975751 117C 200 gF :10% 250 VPK) with the RC time constant of 1.82 ms. For the EFEs (EFE1 and EFE2) the switches S1 and S4 are closed. This allows the 200 gF capacitor to charge rapidly (about 100 [is) and discharge fairly slowly (z= RC = 1.82 ms). Figures 4 and 5 show the voltage vs time waveforms for the different EFEs. The test was not performed for electric fence energizers EFE3 —EFE5. 0 m vi m o � -0. C 000% ' —EFE1 500 1000 1500 2000 2500 3000 Time (µs) Figure 4. Output voltage waveform for EFE1. The maximal charge that flows through the cardiac cell model is given by Q = CV= 200 gF X 3.88 V = 775 µC, the current during which the capacitor charges to maximal value is given by I = CVIT = (200 gF x 3.88 V)/233 gs = 3.33 A. a� rn to 0 -0. -EFE2 iuu luu suu 400 S00 500 700 800 900 1000 Time (us) Figure 5. Output voltage waveform for the electric fence energizers EFE2. The maximal charge that flows through the cardiac cell model is given by Q = CV= 200 4F x 2.91 V = 582 µC, the current during which the capacitor charges to maximal value is given by I = MT = (200 �& x 191 V)/132 ps = 4.41 A. 6. Discussion Geddes and Baker (1989) have shown that for pulses shorter than the cardiac cell time constant of 2 ms, the electric charge is the quantity that excites cardiac cells. Because the first half wave is the largest, the charge integrated in the first half wave determines cardiac cell excitation. The next half wave discharges the cardiac cell capacitance and does not contribute to cardiac cell excitation. Thus we list integral I(t) = charge Q in Table 1. IEC (2006) integrates F(t), which is roughly equal to I(t). Their Figure 102 roughly follows charge. We propose revising EFE standards for measuring current to determine a safety standard to prevent VF. The new standard would measure cardiac cell excitation. It would not require the complex calculations required to determine "The current which flows during the time period in which 95 percent of the output energy (is delivered)." It would use a simple circuit similar to that in Figure 2 composed of resistors and a capacitor. The investigator would discharge the device into the circuit and measure the maximum voltage. If the maximum voltage does not exceed 5 V (as a conservative estimate), the EFE passes the test. The 500 0 resistor closely approximates the resistance of the body and determines the current that flows through the body. Acknowledgements We thank L Burke O'Neal and Silas Bernardoni for their help and suggestions. References Geddes L A, and Baker L E 1989 Principles of applied biomedical instrumentation (New York: John Wiley & Sons) pp 458 -61 Geddes L A and Bourland J D 1985 The strength- duration curve. IEEE. Trans. Biomed. Eng. 32(6) 458 -9 IEC 1987 International Eleetrotechnical Commission IEC Report: Effects of current passing through the human body (IEC 60479 -2) pp 47 IEC 2006 Household and similar electrical appliances — Safety — Part 2-76:.Particular requirements for electric fence energizers, (IEC 60335 -2 -76, Edition 2.1) Jones M and Geddes L A 1977 Strength duration curves for cardiac pacemaking and ventricular fibrillation Cardiovasc. Res. Center Bull. 15 101 -12 NORMS INTERNATIONALE INTERNATIONAL STANDARD CEI IEC 60335 -2 -76 Edition 2,1 2006 -04 Edition 2:2002 consolidee par I'amendement 1:2006 Edition 2:2002 consolidated with amendment 9:2006 Appareils 6lectrodomestiques et analogues — Securite — Partie 2 -76: Regles particulieres pour les electrificateurs de cl6tures Household and similar electrical appliances — Safety — Part 2 -76; Particular requirements for electric fence energizers Numero de reference Reference number CEIAEC 60335 -2- 76:2002 +A'I:2006 Customer: robert Calton - No. of User(s): 1 - Company: Order No.: WS -2007- 009528 - IMPORTANT: This file is copyright of IEC, Geneva, Switzerland. All rights reserved. This file is subject to a licence agreement. Enquiries to Email: custsery @iec.ch - Tel.: +41 22 919 02 11 60335 -2 -76 n IEC:2002 +A1:2006 - 49 - 22.108 Energizer output characteristics shall be such that - the impulse repetition rate shall not exceed 1 Hz; - the impulse duration of the impulse in the 500 n component of the standard load shall not exceed 10 ms; - for energy limited energizers the energy/impulse in the 500 n component of the standard load shall not exceed 5 J; NOTE The energy/impulse is the energy measured in the impulse over the impulse duration. - for current limited energizers the output current in the 500 n component of the standard load shall not exceed for ❑ an impulse duration of greater than 0,1 ms, the value specified by the characteristic limit line detailed in Figure 102; ❑ an impulse duration of not greater than 0,1 ms, 15 700 mA Compliance is checked by measurement when the energizer is supplied with the voltage in 11. 5, the energizer being operated under conditions of normal operation but with the standard load connected to its output terminals. When measuring the impulse repetition rate the standard load is not connected. 60335 -2 -76 n IEC:2002 +A12006 - 51 - The measurements are made using a measuring arrangement with an input impedance consisting of a non - inductive resistance of not less than 1 Mn in parallel with a capacitance of not more than 100 pF. 60335 -2 -76 @ IEC:2002 +A1 :2006 —61 — N C O U N N 7 Q E 100 10 0,1 0,01 100 1 000 10 000 100 000 Output current (mA) reC 322199 NOTE The equation of the line relating impulse duration (ms) to output current (mA) for 1 000 mA < output current < 15 700 mA, is given by imputse duration = 41,885 x 103 x (output current) -9 X34 Figure 102 — Current limited energizer characteristic limit line Customer: robert caiton - No. of User(s): 1 - Company: Order No.: WS -2007- 009528 - IMPORTANT: This file is copyright of IEC, Geneva, Switzerland. All rights reserved. This file is subject to a licence agreement. Enquiries to Em;,il: custserv@iec.ch -Tel.: +41 22 919 02 11 60335 -2 -76 @ II^C:2002 +A1:2006 —81 — Annex CC (informative) Installation of electric security fences CCA General An electric security fence should be installed so that, under normal conditions of operation, persons are protected against inadvertent contact with pulsed conductors. NOTE 1 This requirement is primarily intended to establish that a desirable level of safety is present or is being maintained in the physical barrier. NOTE 2 When selecting the type of physical barrier, the likely presence of young children should be a factor in considering the size of openings. CC.2 Location of electric security fence The electric fence should be separated from the public access area by means of a physical barrier. Where an electric fence is installed in an elevated position, such as on the inner side of a window or skylight, the physical barrier may be less than 1,5 m high where it covers the whole of the electric fence. If the bottom of the window or skylight is within a distance of 1,5 m from the floor or access level then the physical barrier need only extend up to a height of 1,5 m above the floor or access level. CC.3 Prohibited zone for pulsed conductors Pulsed conductors shall not be installed within the shaded zone shown in Figure CC1. NOTE 1 Where an electric security fence is planned to run close to a site boundary, the relevant government authority should be consulted before installation begins. NOTE 2 Typical electric security fence installations are shown in Figure CC2 and Figure CC3. CC.4 Separation between electric fence and physical barrier Where a physical barrier is installed in compliance with CC.3 at least one dimension in any opening should be not greater than 130 mm and the separation between the electric fence and the physical barrier should be — within the range of 100 mm to 200 mm or greater than 1 000 mm where at least one dimension in each opening in the physical barrier is not greater than 130 mm; — greater than 1 000 mm where any opening in the physical barrier has all dimensions greater than 50 mm; — less than 200 mm or greater than 1 000 mm where the physical barrier does not have any openings. NOTE 1 These restrictions are intended to reduce the possibility of persons making inadvertent contact with the pulsed conductors and to prevent them from becoming wedged between the electric fence and the physical barrier, thereby being exposed to multiple shocks from the energizer. NOTE 2 The separation is the perpendicular distance between the electric fence and the physical barrier. Customer: robert Calton - No. of User(s): 1 - Company: Order No.: WS- 2007- 009528 - IMPORTANT: This file is copyright of IEC, Geneva, Switzerland. All rights reserved. This file is subject to a licence agreement. Enquiries to Email: custsery @iec.ch - Tel.: {41 22 919 02 11 60335 -2 -76 © IEC:2002 +A1:2006 —83— CC.5 Prohibited mounting Electric fence conductors should not be mounted on a support used for any overhead power line. CC.6 Operation of electric security fence The conductors of an electric fence should not be energized unless all authorized persons, within or entering the secure area, have been informed of its location. Where there is a risk of persons being injured by a secondary cause, appropriate additional safety precautions should be taken. NOTE An example of a secondary cause is where a person may be expected to fall from a surface if contact is made with pulsed conductors. Customer: robert calton - No. of User(s): 1 - Company: Order No.: WS- 2007 - 009528 - IMPORTANT: This file is copyright of IEC, Geneva, Switzerland. All rights reserved. This file is subject to a licence agreement. Enquiries to Email: custserv@iec.ch - TeL +41 22 919 02 11 60335 -2 -76 © IEC:2002 +A1:2006 —85— n E E d 0 1EC 18IM5 Key A = Secure area & = Public access area Physical barrier Prohibited area �--r� Electric security fence Figure CCA — Prohibited area for pulse conductors Customer: robert Calton - No. of User(s): 1 - Company: Order No.: WS- 2007 - 009528 - IMPORTANT: This file is copyright of IEC, Geneva, Switzerland. All rights reserved. This file is subject to a licence agreement. Enquiries to Email: custsery @iec.ch - Tel.: +41 22 919 02 11 60335 -2 -76 @ IEC:2002 +A1:2006 —87— ■ a O � ■ IN <-- O I ! i�- ".11ME ■ Key A = Secure area B = Public access area C = Barrier where required 1 = Electric security fence 2 = Physical barrier O IEC 1820105 Figure CC.2 — Typical constructions where an electric security fence is exposed to the public Customer: robert calton - No. of User(s): 1 - Company: Order No.: WS -2007- 009528 - IMPORTANT: This file is copyright of IEC, Geneva, Switzerland. All rights reserved. This file is subject to a licence agreement. Enquiries to Email: custsery @iec.ch -Tel.: +41 22 919 02 11 I 60335 -2 -76 O IEC:2002 +A1:2006 —89— fEC 1821105 Key A = Secure area B = Public access area C = Barrier where required D = Glass window pane E = Skylight in roof 1 = Electric security fence 2 = Physical barrier Figure CC.3 — Typical fence constructions where the electric security fence is installed in windows and skylights Customer: robert calton - No. of User(s): 1 - Company: Order No.: WS -2007- 009528 - IMPORTANT: This file is copyright of IEC, Geneva, Switzerland. All rights reserved. This file is subject to a licence agreement. Enquiries to Emaih custserv@iec.ch - Tel.: +41 22 919 02 11 60335 -2 -76 © IEC:2O02 +A1:2006 —91 — Bibliography The bibliography of Part 1 is applicable except as follows. Addition: IEC 60335 -2 -86, Household and similar electrical appliances — Safety — Part 2 -86: Particular requirements for electric fishing machines IEC 60335 -2 -87, Household and similar electrical appliances — Safety — Part 2 -87: Particular requirements for electric animal stunning equipment Customer: robert Balton - No. of User(s): 1 - Company: Order No.: WS- 2007 - 009528 - IMPORTANT: This file is copyright of IEC, Geneva, Switzerland. All rights reserved. This file is subject to a licence agreement. Enquiries to Email: custsery @iec.ch - Tel.: +41 22 919 02 11 ,. c ._ • Suite 230 Property of AlRiance Engineering of Oregon, tnc.. Unauthor ized dup7ioation prohibited. Co ht - AMance En inaerin of O on, 4nc. arket Street N.E.. AM nce Engineering of Oregon. tnc. Phone: (503) 589 -1727 OR 97301 wus ou.aex?eegon:com Fax` (503) 589-1728 GSI8O 15 (Wa Ran[ TX 9' £6 . with sM1Pai oarz¢B R4 492x2 S_xsrmoc! } GS'. RtMS15 (We Rant 2 HJ ":rnarnsio¢as Haight of fence QS afar L-3g.d$ fir awildRng inxt ilassnn Yatkas: Fastest wind speed (3 second gvst) V-,,e I50 MPH Wmd Exposure. Fcra£in and P,osf Hole f I n VOWU V`, -'=. 10,,, E=sf Assumed soft weY ioa£ bea3 ng eaFaGCy S, 100 psf As..med soft tatera: bearing oapacity dzm_t « >xEn�:� d_25 Yt Post fosvng diamatae C'oaxcmtc. bs.k r; . -. " "5 >.cs'•. Backfitl in naatn posts i ♦ it " - GS14Qft8t5 � e Reny t2- SCherfz. TXF $' fence wrtt#s solar PareE RQ Q924F5.xmcd 3 VVIN DANAt-YSPS: Cbastgn SrASCE7 -t0 ?`v...,,a = 1:S4 Basic YYir c spa k, _= 4.58 Wind Di,Stdtidraitty Factor k,z. = 1 -0 T`4id,• Phic Facto, k;..: =. 0.850 Wend Ex€ .,, Factor' _00 1,poxLBn.. factor 4n :^ .00256 k > ''^-r i`d'�`u.5ns2, I_ Vetocity F' $e m Vn = 4:1.62 Psf Galo¢xlatacE vwn,l P�xtessearexs° (orx ianca) uPia v. M. 121 in Wit' ^.2m�e= t2 Quvand fort,,'° gh "C'zr.,nc'C'r ,a -2..4. Psf (.I,la ,f SncT t paiim s . ion solar F control pnaan'at supports) Cr., 9-64 Csvccxxre =- 0.85 r 5 9 uv�e+x3_sa,Pn*tt - 572 psf Ve.E. ty P>eessuca CIS IPOC915 IVVe Rent U- S..nex-ra,.:.X? IV 5.rnae wth sofa€ Panel RR O 2415.xmce 4 E3eEerrrnine tine ^clequacy eaf the Primary EReWW Ferree Pcwt — T'he aratysis i t. 01 she., the adaquacY of the coEe.rrttn. �p .er r_acrur:�,... "�:arner . Pcrsxs'. C.Wx . _4 c= •- 4d1xx=ik}^ ,..r m _° 2Kb T�o ft c,.. = 0.24 en. 7hf.ke. of .$.mrn moteriaY D" = 4. as r Utsbrfo diartaatar of m &e mn sact €are F.. , =.35 1.'i. Strecx 0= 291104 1W I.rr. -- 96 err aximexm Vrn@arscast lertgtie of colssnen E� 2 xaoo M, —. c, ^:- 6.! kip-in RequiC moment cepecity due to wind N..t, Ch.k laads dx.aa is w ra tans €o, i'.., ecac.rne = 21T .:T Ibs Pe'r wire �taY A'tMatm k}E. � "irm tmn< rr. � Ml— cvaa ixt '° k, 2.8 "= I -5S tR 1<:s c = b_.4 8lendomesa ratio +-- u+:�i..ax:.rn�..r_�..r r, r !v Po Sdendemass rated is less then 200, thus 4K. GS'Y9oo is ( i Renx. I[- SCCheeta. T ) a' fence with sofar panel R6 092A 45..xmr 5 WTreeeen �i - _ xoe A C5� n ExcEt s c xuaxs caecasara ra- ,AS- E�.<ae2 _ct ,O3& -E,., , 2 kY` "�mx3ar ct = 49,GA iclttx -Theck tress.: at2O 'a�CSx z w m� 99..t naa- carrzReoS section Sdmit $n.-� „ �x =./ 5.6 Sdandemeas acyuaton chooser €unit . (Equattorzs. E3 -2, E3- E7 -2, E7 -3) }4 Tixnw atmix vt ^ 92_8 Wr Fhngh_kem _+'xi -= 372.9 QuA Ff� \Yn t aeq cF�i '*'teSXtt+c3 +s^S et Q.:: nC �4Y"Frax uxs "it- Sl:m:x er- A >Qcx{ Qx, = t.Otb Q., = 2.32 N ta. Use this Q if the Width thickness ratio is betweeri . high arwJ tow omits catcutated above. Oihavwisa use Q =1.4 AESO> Q cannot be 98aatar titan 2 -4 because it is consideS d a iaducton facto[. Note- tf coFumn is not a slender ate€nent .action, .khan Q = 1. G$19 15 (We Rent It- Schenz.. T ) e' fence wt sotar px mea RD 092415.xmcd G �" -sYnck 3:1 •SPd' +`^iaaCamwxs c F_, = S5.05 Fc, a. r. = A4.05 ksi Fcr....e...ca _ - &37.F,, F ar_c_cs = E407 k5# V4.OS kss {aF4oxrable oomRrassFOr, stress) Fc. cz- 4:x Equation E3 -E, E ? -'! CASO;.. i',x ca = 26:7 kips Aitrnaeei axial teen Next- CData�ena`AH wablG eandln Ioac@:. Da rxnino hlf and chock for CampaCB non- eompact, or standar olemant aacV5 n- (flexure) = A4:C} Wid h- Thickeess ratio t Ex CS IF -07- ;531 t #xxsra -1S ° 58_0 CQ4`4F:3CT.58CfIOFt EY(Ftit Fy 5 2569 non- comQact secffort Ferntt GSt9 0915 (We Runt R[ -SG er . r, ) S' fencve v th solar panes RO G92415.xmcd T First D too,in R. o4. woman# baser& en YEOF(i #n a ; 43r„ " ' I...rx- f:^" - -, trtY,,. - '.54 -9L. kip -zr? AYipwabEe moment based on p3e6c3ing Nsxt. L'*atan -Aires aFdoabde. raorxrent far noa+. -cortx act act'sons b . ( Es, Mx+t -;°1QtS_nc. , ='.+ 45.6E ko,-zn Aifom to. maeneot €ar reon- cesrnPact sec #ioas Nexj, term atiea ble moment for slender element: sections c 1" ?.:F.stccl '4'lt..Yl al c �4 41 T!l_rJ _ct J `avi M,,,, , = 1620A7 z kip o, All.bta mornant €or sian+3or element sections Note- sased on tia vatues of the tmoe cakculatFo is above . the aitew toe moment. is: M-, = I S0,90 kip- n AtP.bte tSexurat moment Next ci k combined btndfnQ and axial toad stresses- - - 'vS,,,. " = 40.36 k -aP-+n Avaia2rke f @axvraP moment {ASC?) P, �:,. =26.7 kips AfECxwad axtat €pad ffrans abava) 0S@Pf l ne A elka—d 'G3l L- Had : 0-c kip, APPlied a.it _. dead Scaci Ne t Check aH taad cases(th t ran coertroE ASE? M-m_ >=_t*x.2) 4,"A _4�.a = Q.Oi Comb&ned usage of colunso Note: Lisp the. S.M tI,.. QK (W.mt Load Casc> coed #loin}- GS196 915 (We Rent Q -ddhsr . TX? H' fens¢ x h enter penes RD 092415 -xm d S E M SEB?. ENT FCOR fdrima&y El0 triG Fens im 9hQSts_:. CaP.W.t.. the x- xiht,.m required post ernbechhont depth ht,;MtdmP tdadirag. va. -, 3997 Ibf Latest shear toad at the cgroundisnt^ Cn.chhc Rea kE:IP -. ^�'cc •. 17?3 '.t -4bE Moment at the ,o.,dtm. (based on corhthhpd wind and dead coeds) d£xi_.Rwffinux- 1-25 ft_ M ih Past foovmg diam2t., 100 psf Lateral oapaoity of soil Trdat depth= 1-5 ft, -The. starting depth of the Post hole depth. The hnal post hage depth is deteeTireed by heating to a finei depth. - 4.35 ft_ This is the minwhum n qudred post embedment depth for iateret deeding GSt3C)0915 (We Rent ft- Soh,mo, TX) 8` fence wPth sotor pane,€ RO G 2415.xmc. d S Next,.. Check the po #es for an Eied Ulc Fence Control f Solar Panel Support. 208 in hieight of support d;., r :_ i.-10 ft posf footire8 danxafar M.Mber of posts Asmde —' 9.4 fk2 Area of solae pan.! 4 kn., o= 6 4ta Area of corsoi transits) Ca pvlote the moment indu.snl by the confroi boxes and the soda, panels.. pst from ob<o t, W,, ' eF,h- EOa._.nns+� `Loo r,s W,n3 scut. " = .237.6 tbs NVi,,, 34.32 Fbs N07Ec The canter of area of the solar pan.! wM be at 12V' The center of aree of the lowest control prix vO be 3S" The canter of area of the middle control Cox will Ce 64 The canter of ares of the top cantrot box will be 52" W-. —I.,- 12 F + R`3no,,' 36 -!. 4Y VUe42:c G4 i W;.n4cq,-92 - £E}gLk.n" NI,, = 65.47 kip - inohas NOTE : Lisa 3 " d'narnoter gaivat,poo conduit. This sec #ion carx be shown to have a section modulus of 2.3 ins (S) and an altowaCia yield stress of 50 ksi, IJeterrhms, €i6e^ stress: 4Stox {a Ytr = 28.47 ksi a 50 ksi 4K 23 Check s8endernass: k, — 2.} r.= I. 6. en Luos..ac++tn s:= 208 S£eraU ss cl -- 1`ti � ���� �s'edemcc =_`2 }�G .�i'lan(lern @65 rat3R Noto: Sienderness -ratio is less than 200. thus <3K.. G515£POE?5 ?e Rerxt it- 9cteerFZ, Tx•T S fanee avit2n satae PaaaOE Rf] 4S2aE5xexxctl 1E1 Fosating CalCulatis n Fir Etec ric Fimseca Control ! Solar Fonttl Suppg rt. Ps> t. Calcuiate the r uhed fatting depth NOTE: ..O taamsne tha point Egad sacxWd @a phe uae a Mr ent aPPiiad at nxid point of the post see above b,-,:= x-{c�....�- .r�t�._ .a e.c � ,^Yr -• a . "ll ml:...} h,,,..4: = x. 5 t} xee - 100 p,f Assvmea ..it Fatarat Bearing capacity +3wxn , � sy R Tn.t dapath of PO hoi� t. da£c Yne fena8 raqun d errdaad ,rh d�th. S, w — S,- d„¢'tfr_F'os, $ _T3 2. This 3s. the menim.m regvkrsd post eIb merit depth calcuEatad far IaEeraE Loading, NOTE: Us. 5'- 9 °aMbadm.nt m aN, I! P##, 7050 G SEAT FRW i e EX. B i t NOTE: Vcck*MW fences ✓ b4"es sS^a 7 le, be ; . „tea. e°3 wit a iS) aeei of si�ewa c o «aa. "c "el-os -Way DEVELOPER WeReftft i N co tr "Na �S. _AMA VICINMY MAP QT 70 SCALE +r i i u 0 ate SEP. 23, 2015 i „ -W OF' WIRE EXTENDED 4' MIN. FOR ANCHOR F113ERGLA35 POLE AID.: T WIRE CONNECTION3 8 11►° ue 20 It- � a " .... OT $... "., — -a y"1 .. .,f9tx# .bAt 3 FT cAwtz .�.w.W.........,.. N.. �.,>:. 40t WIRE CONNECTION3 8 11►° ue Wos � • � a ue Wos � • � a tea; Side View EURI FENS BRACIE DS ' FIRMLASS POLS 0 corta 14/2 fs '41.2 AT't Y OUTSIDE V,,C',jN TED ECTRONICS SOLAREL SIRE : ffi s AL ARM PANEL r L BATTERY { CONTROLLER _ 7 __ _ ` 24 "X36" a 3"0 SAL`: ET ELECTRICAL COC?U�T T RLCS _ ; EXI TIN E s 2,500 PSI MIN CONCRETE 71- NI fy �U .. G T u NN" v l— ft JU SM 73,7015 / o POLE I��{ r� yy . GATE f. of T, siw 9,ovimi ' _ ew Inkm ponw j t $deed I E 4. L: e tam m orL h e fna $y M VWNTS OLL W AMCT ,rt OF oAlEfs)- GATE DE7AIL corta 14/2 fs '41.2 AT't Y OUTSIDE V,,C',jN TED ECTRONICS SOLAREL SIRE : ffi s AL ARM PANEL r L BATTERY { CONTROLLER _ 7 __ _ ` 24 "X36" a 3"0 SAL`: ET ELECTRICAL COC?U�T T RLCS _ ; EXI TIN E s 2,500 PSI MIN CONCRETE 71- NI fy �U .. G T u NN" v l— ft JU SM 73,7015 / 1. 1 B Corner Post Batts on bottom of insulators should be - tight and insulators must. be able to spin, freely acting as apufley. 1.11C Corner Post Install metal poles in MIDDLE of hole vs front or, back of hole with concrete. Fill in hale with concrete to ground level. 1.1D Corner Post The #2 wire rust be hot in every section. The #1 wire must be flat on the ground. 1.1E Corner Post Medium springs are required on both ends of every section over 250 feet. w POLE CAP "p 1P'-E 5/1611 60 211 8" GAP .l. GALVANIZED " GAP 19 GAP—[ 0 Cl SENTRY INSULATOR ' GAP °E CID z LU ,Y GAP ONE 3 -PIECE , ... "' GAP4— �; BRACKET 5/1611, " GAP- -E `l (20 SETS PER POLE) °T 5 FT "" GAP--E a " GAP 4' GAP— � — " GAP -4--- `` GAP.,- � 0 Install roc is I the direction o pull, 411 GAP L 0 except when used a an End Pale, LU ' CAP L Aa GAP C 0 a GAP L ® Install LE brackets FACING the " GAP ik i_t k° direction of chain link Gate Pole "" maximum from Gate Pole I Install LL GATE rackets FACING the direction of pull. DIG, HOLE Install CORNER POLE EKES 1,51$ I 0-8" from in Lin le t * diagonally. 1.1 Corner Post If the metal pales are scratched, paint them; 1. 1 B Corner Post Batts on bottom of insulators should be - tight and insulators must. be able to spin, freely acting as apufley. 1.11C Corner Post Install metal poles in MIDDLE of hole vs front or, back of hole with concrete. Fill in hale with concrete to ground level. 1.1D Corner Post The #2 wire rust be hot in every section. The #1 wire must be flat on the ground. 1.1E Corner Post Medium springs are required on both ends of every section over 250 feet. .A Gates Use splices on jumpers on gates, all other jumpers use joint clamps not splices. Gates Back side of roll gate must use steel pale not fiberglass pole. Gate must slide betweery elec- tric ric rid perimeter fence 11 111, r a Gate Brackets Fence I 2.Oa Brackets INSTALLATioN 2.0 A m z w,- �a ;`; CL *r CA 44 L ,cL S 44 .� m z Bypass Gates 2.3 Bypass gates Contacts Gates .4A Contacts All contacts must have a bolt through the contact and fiberglass pale.; All contacts must have a spring on one side. `.� k _... y Mount three empty ",. galvanized silver boxes to pair of 16-loot tall a. w ...>N.a...a.Y »n t wood posts. yy� `Thy otter of the box must be of least feet bo round *.w Alarm Panel w and the posts must be _ " anchored apt least t below level. Battery The satire electronics }n h ensemble must be grounded Controller three galvanized ground rods located no less then Sifftr t ,,, `< 10 feet from each other,. s ler Panels 3-Fence Controllers s.. ca eft i CL i t P M limftiluffoo 2 ,a1 *4 M* #0 gM yQ 711 "to Cta cs 4# ® LA L �e Mum+= OW